An apparatus and a method for dividing a stuffed sausage skein, wherein a transport element pair is provided, including rotating opposite transport elements between which the stuffed sausage skein is conveyed in a transport direction and each of which include at least one dividing element. To be able to configure the length of the portions flexibly without mechanical adaptation, the apparatus comprises several adjacently arranged transport element pairs drivable independently of each other with corresponding dividing element pairs. The speed of the transport element pairs is adjusted such that the spacing between the points of separation corresponds to a predetermined length of the divided sausage skein.
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1. Apparatus (1) for dividing a stuffed sausage skein (14), comprising:
a transport element pair (2, 3) including rotating opposite transport elements between which the stuffed sausage skein (14) is conveyed in transport direction T and each of the transport element pair (2, 3) include at least one dividing element (4, 5), and wherein several adjacently arranged transport element pairs (2a, 3a; 2b, 3b; 2c, 3c) are drivable independently of each other with corresponding dividing element pairs (4a, 5a; 4b, 5b; 4c, 5c).
2. Apparatus according to
3. Apparatus according to
4. Apparatus according to
5. Apparatus according to
6. Apparatus according to
7. Apparatus according to
8. Apparatus according to
9. Method for dividing a stuffed sausage skein with an apparatus according to
a; transporting the stuffed sausage skein (14) in the transport direction T through the adjacently arranged rotating transport element pairs (2a, 3a; 2b, 3b; 2c, 3c),
b; dividing the stuffed sausage skein (14) at a first point S1 by a dividing element pair (4a, 5a; 4b, 5b; 4c, 5c) of one of the transport element pairs (2a, 3a; 2b, 3b; 2c, 3c), which engages the sausage skein,
c; transporting the stuffed sausage skein (14) further,
d; dividing the stuffed sausage skein at a second point S2 by a following dividing element pair (4a, 5a; 4b, 5b; 4c, 5c) of another transport element pair (2a, 3a; 2b, 3b; 2c, 3c), which engages the sausage skein,
wherein the speeds of the transport element pairs (2a, 3a; 2b, 3b; 2c, 3c) is adjusted such that the spacing between the first S1 and the second point S2 corresponds to a predetermined length I of the divided sausage skein (14).
10. Method according to
11. Method according to
12. Method according to
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The present application claims the benefit of priority of European Patent Application No. 06019555.9 filed Sep. 19, 2006. The entire text of the priority application is incorporated herein by reference in its entirety.
The present disclosure relates to an apparatus and a method for dividing a stuffed sausage skein such as used in sausage-making operations.
Such an apparatus is already known from U.S. Pat. No. 6,050,888.
In the production of sausages, a difference is made between systems for stuffing sausage skeins in a portioned or a constant manner. With the portioning systems, a previously defined volume is discharged from the stuffing pipe of a stuffing machine into a sausage skin. Then, the portion is sealed, for example, by rotating the skin, whereafter the next portion is discharged. Such systems only allow low portioning performances.
With systems for stuffing constant sausage skeins, the product discharge is not stopped during the dividing process. The division of the skein into individual portions is accomplished by constriction with dividing elements. If the skein is thereby additionally subjected to a torsional prestress, a so-called twist at these points can be produced simultaneously by means of twisting. With these systems higher performances are achieved.
There are basically two possibilities for dividing the stuffed sausage skeins.
On the one hand, the continuously stuffed sausage skein can be divided by means of a rotating transport element, e.g. a chain or a toothed belt. To this end, dividing elements are provided at equal spacings on the periphery of the transport element. The dividing elements engage the stuffed sausage skein in pairs and constrict the same so as to produce a portion. The spacings of the dividing elements to each other and, thus, the changes of the sausage length cannot be varied during the production without modifying the system.
To produce other lengths, therefore, a new pair of chains is normally used. Thus, no flexibility with respect to the length of a product is possible. Moreover, the transport elements, i.e. the chain or the toothed belts on which the dividing elements are affixed, are normally subject to a non-variable pitch. Therefore, the exchange of the pair of chains does not allow the production of sausage lengths that do not fit into this pitch. Only those sausage lengths can be produced, that correspond to the integer pitch of the dividing elements. It had already been attempted in EP 1430779 to improve this lack of flexibility. It has already been described therein to fix the dividing elements detachably on the rotating transport elements and to mount them at other positions having a different pitch at the periphery of the transport element. However, since the transport element, that is, the belt or the chain itself, has a specific length, such an embodiment, too, only allows the production of sausage lengths the integer multiple of which corresponds to the length of the transport element. Example: A transport element having a circumference of 500 mm can comprise, for example, five dividing elements which have a constant spacing relative to each other. Thus, sausages having a sausage length of about 100 mm can be produced. With four dividing elements the length of the individual portions is 500 mm/4=125 mm. This means that the desired length can only be selected as a function of the circumference of the transport element. A sausage length of 110 mm is impossible, for example, with the above-described transport element. Moreover, if the operator does not want to exchange a complete set of transport elements for adapting the length, he must perform a mechanical re-equipment each time, which takes plenty of time during which he cannot produce with the system.
Another possibility for dividing the stuffed sausage skein is described, for example, in EP 0472825. Here, a conveyor belt is mounted in the direction of transport behind a flexible displacer pair. The speed of the displacer pair is variable during rotation, so that different lengths of sausages can be produced.
The disadvantage with that second type dividing structure is that the two required systems, that is, the displacer and the conveyor belt for producing products of equal length are mounted behind each other. Specifically, in the processing of a natural intestine problems may arise in the transfer of the first portion from the displacer into the conveyor belt because, due to the natural bend of the intestine, the sausage skein aims at deviating from the theoretical stuffing axis. Moreover, there is no engagement between the conveyor belts and the individual sausage portions in the direction of transport, so that the occurring slip may result in linear variations of the individual portions.
Based on the foregoing, it is the object of the present disclosure to provide an apparatus and a method which eliminate, on the one hand, the drawbacks of the aforementioned systems and which allow to divide a stuffed sausage skein, wherein the length adjustment can be configured flexibly without mechanical adaptation, without the need to use two systems mounted one behind the other.
According to the present disclosure the apparatus comprises several adjacently arranged pairs of transport elements, which can be driven independently of each other, including corresponding pairs of dividing elements. Due to the fact that the speed of the pairs of transport elements can be adjusted independently of each other, the spacing between successive points of separation can be exactly adjusted by varying the speed, so that a specific length I of the divided sausage skein can be adjusted. Thus, it is possible to produce different product lengths without a modification to mechanical parts and without completely changing the set-up. The length of the divided sausage skein can thereby be configured flexibly and adjusted optionally. Moreover, there is no critical transition point between two systems mounted one behind the other. Further, the length of the divided sausage skein is not dependent on the length or the circumference, respectively, of the rotating transport element.
According to a preferred embodiment of the present disclosure the apparatus additionally comprises an independently drivable pair of transport elements, which is devoid of dividing elements and which is configured to guide and support the stuffed sausage skein, as well as a control device driving this pair of transport elements at a speed to make it run synchronously with respect to the discharge of the stuffing material and the conveying speed of the stuffed sausage skein, respectively. This additional pair of transport elements, which is preferably disposed in a central region of the transport elements, may thereby assume an additional supporting and guiding function for the products. This pair of transport elements can also cover greater distances than the other transport elements equipped with dividing elements. This system is specifically suited for the production of twisted off portions (e.g. in combination with twist-off and brake ring transmissions), because the supporting and guiding function of the pair of transport elements allows the secure holding of the stuffed sausage skein and its subjecting to torsional prestress. By the engagement of the dividing elements of the other pairs of transport elements then the position of the point of separation is defined.
According to another embodiment at least one pair of transport elements is formed of several spaced-apart pairs of subtransport elements, which are driven in the same manner, however. The different pairs of transport elements can then be arranged to fit into one another or to lie in one another, respectively. If the subtransport elements of the pairs of transport elements, which are placed side by side in a spaced-apart manner and have the same drive, are connected to each other by a respective connecting element, a corresponding dividing element can be mounted on the connecting element. Thus, the dividing element can be easily positioned exactly between the subtransport elements. The dividing elements are preferably arranged to lie substantially above the central axis M of the adjacent transport elements. This ensures that the rotating dividing elements or pairs of dividing elements, respectively, can exactly divide the stuffed sausage skein about the longitudinal axis L of the sausage skein without being laterally offset.
The dividing elements are preferably disposed on the transport elements to be rotatably mounted about an axis substantially perpendicularly to the transport direction T. This provides for the possibility to engage the dividing elements orthogonally to the product skein and to thereby produce, for example, shaped ends. The dividing elements are guided orthogonally to the stuffed skein or brought into this position, respectively, by a guide not explained in more detail.
According to the present disclosure a control device is provided, which controls the independent drives of the transport element pairs such that the sausage skein portions separated by successive pairs of dividing elements, which engage the sausage skein, have a predetermined length I.
The rotating transport elements of the pairs of transport elements may be disposed either opposite in parallel to each other or may also approach each other under a specific angle α in the transport direction T. By this, the dividing elements of the dividing element pairs can be engaged slowly, so that a soft production of the point of separation is possible.
Advantageously, as the pair of dividing elements engages the sausage skein, the corresponding pair of transport elements is driven at a speed to run synchronously with respect to the discharge of the stuffing material and the conveying speed of the stuffed sausage skein, respectively. This allows a continuous production and a continuous transport of the stuffed sausage skein, respectively.
According to a preferred embodiment of the method according to the disclosure two pairs of dividing elements mounted one behind the other are engaged directly one after the other with the stuffed sausage skein to be separated so as to produce the points of separation. Thus, a wider point of separation is produced. This effect is intensified if the two pairs move at different speeds during their engagement, that is, if the second pair of dividing elements runs more slowly than the first pair. By this, the point of separation is drawn apart, thereby resulting in an even greater gap between the portions. This is particularly advantageous if the point of separation is sealed, for example, with two adjacently arranged clips.
The present disclosure will be explained in more detail below, with reference to the accompanying drawings:
Via the stuffing pipe 12 the pasty mass is discharged into the casing, e.g. the intestine, which is fitted onto the stuffing pipe 12 and held by the casing brake 13, so as to produce the stuffed sausage skein 14 in a manner known per se.
The apparatus 1 for dividing the stuffed sausage skein is located directly downstream of the stuffing pipe. The sausage skein is to be subdivided by the apparatus 1 into individual portions of a predetermined length I.
Drive 6a drives, for example, transport element 2a, drive 6b drives transport element 2b and drive 6c drives the central transport element 2c. At the same time, drive 7a drives the transport element 3a, drive 7b drives the transport element 3b and drive 7c drives the central transport element 3c. Drives 7a, 6a and drives 6b, 7b and drives 7c, 6c each run synchronously in pairs. The different drives are embodied such that only the region of a sleeve driven by a driving shaft is moving, said sleeve being in contact with the corresponding transport elements 2a, b, c, 3a, b, c. The driving axes of drives 6a, b, c, 7a, b, c are located substantially perpendicularly to the transport direction T or longitudinal axis L, respectively, of the apparatus. This means that the adjacently arranged transport elements are arranged adjacently with respect to the driving axis of drives 6a, b, c, 7a, b, c, that is, substantially perpendicularly to the transport direction T.
The transport elements of the transport element pairs 2a, 3a; 2b, 3b; 2c, 3c include corresponding dividing elements 4a, b, c, 5a, b, c. In the exemplary embodiment shown in
As can be seen even better in connection with
The dividing elements 4a, b, c may have different shapes, e.g. straight plates, V-shaped, etc.
In connection with
By means of the control device 10 shown in
The apparatus according to the disclosure operates as follows. As was described above, a stuffed sausage skein 14 is produced by the stuffing machine shown in
As can be recognized in
The process shown in connection with
As can be seen in
As can be seen in
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Sep 18 2007 | ALBERT HANDTMANN MASCHINENFABRIK GMBH & CO. KG | (assignment on the face of the patent) | / | |||
Oct 29 2007 | BACHTLE, MANFRED | ALBERT HANDTMANN MASCHINENFABRIK GMBH & CO KG | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020118 | /0787 |
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